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Refined asymptotic expansions for nonlocal diffusion equations

Authors:

Institution:

(1) Institute of Mathematics of the Romanian Academy, P.O. Box 1-764, RO-014700 Bucharest, Romania;(2) IMDEA Matematicas, C-IX, Campus UAM, Madrid, Spain;(3) Departamento de Matemática, FCEyN UBA, 1428 Buenos Aires, Argentina

Abstract:

We study the asymptotic behavior for solutions to nonlocal diffusion models of the form u _t = J * u – u in the whole ${\mathbb{R}}^d$ with an initial condition u(x, 0) = u ₀(x). Under suitable hypotheses on J (involving its Fourier transform) and u ₀, it is proved an expansion of the form

$\left\| {u(u) - \sum\limits_{\left| \alpha \right| \leq k} {\frac{{( - 1)^{\left| \alpha \right|} }}{{\alpha !}}\left( {\int {u_0 (x)x^\alpha\, dx} } \right)\partial ^\alpha K_t } } \right\| _{L^q ({\mathbb{R}}^d )} \leq Ct^{ - A}$

, where K _t is the regular part of the fundamental solution and the exponent A depends on J, q, k and the dimension d. Moreover, we can obtain bounds for the difference between the terms in this expansion and the corresponding ones for the expansion of the evolution given by fractional powers of the Laplacian, $\nu_t (x, t) = -(-\Delta)^{\frac{s}{2}} \nu (x, t)$ .

Keywords:

:" target="_blank">: Nonlocal diffusion asymptotic behavior fractional Laplacian

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